Electronic Cigarette Case, Method and System for Managing Information of Electronic Cigarette Case

1. An electronic cigarette case, comprising: an information receiving and sending module, a microprocessor, a sliding touch control module, and a charge management module of a built-in battery and a charge management module of a battery pole; wherein the information receiving and sending module, the sliding touch control module, the charge management module of the built-in battery and the charge management module of the battery pole are connected to the microprocessor respectively; and the information receiving and sending module is communicated with an external electronic device; wherein the microprocessor is configured for collecting at least one kind of data selected from the group consisting of personal information data, electronic cigarette case data and electronic cigarette data, the microprocessor collects the electronic cigarette case data through the charge management module of the built-in battery and the charge management module of the battery pole; wherein the electronic cigarette case data further includes at least one kind of data selected from the group consisting of a number of times of charge of the electronic cigarette case, a number of times of discharge of the electronic cigarette case, a charging and discharging capacity of the electronic cigarette case, a number of times of charge of an electronic cigarette, a charging time interval of an electronic cigarette and a remaining capacity of the built-in battery of the electronic cigarette case; wherein the sliding touch control module is configured for sensing a sliding touch signal of a user in a direction towards an opening defined in the electronic cigarette case for taking electronic cigarettes out or putting electronic cigarettes in and transmitting the sliding touch signal to the microprocessor; and wherein the microprocessor is further configured for controlling the information receiving and sending module to send the data collected by the microprocessor to the electronic device according to the sliding touch signal; wherein, the charge management module of the built-in battery includes a charge management chip U 1 , a first pin of the charge management chip U 1 is connected to an I/O pin of the microprocessor, a second pin of the charge management chip U 1 is connected to an I/O pin of the microprocessor, a third pin of the charge management chip U 1 is grounded via a capacitor C 3 and further connected to the anode of an external power source via a resistor R 1 , a fourth pin of the charge management chip U 1 is connected to the grid of a MOSFET Q 1 , a fifth pin of the charge management chip U 1 is grounded, a sixth pin of the charge management chip U 1 is grounded via a capacitor C 5 , a seventh pin of the charge management chip U 1 is connected to the anode of the built-in battery, a eighth pin of the charge management chip U 1 is grounded via a capacitor C 6 and further connected to one end of an inductor L 1 , a ninth pin of the charge management chip U 1 is grounded via a resistor R 5 , a tenth pin of the charge management chip U 1 is grounded via a resistor R 4 ; the VCC terminal of the external power source is connected to the anode of a diode D 1 via a resistor R 1 , the cathode of the diode D 1 is grounded via a capacitor C 1 and a capacitor C 2 respectively and further connected to the source of the MOSFET Q 1 , the drain of the MOSFET Q 1 is connected to one end of the inductor L 1 and the cathode of a diode D 2 respectively, the drain of the MOSFET Q 1 is grounded via a resistor R 2 and a capacitor C 4 connected with each other in series, another end of the inductor L 1 is also connected to the anode of the built-in battery via a resistor R 3 ; one end of a resistor R 6 is connected to the anode of the built-in battery, and another end of the resistor R 6 is connected to a first AD pin of the microprocessor, and further connected to one end of the resistor R 7 , One end of the resistor R 7 is also connected to the first AD pin of the microprocessor, and another end of the resistor R 7 is connected to the fifteenth pin of the microprocessor, one end of a capacitor C 9 is connected to the first AD pin of the microprocessor, and another end of the capacitor C 9 is connected to the second end of the resistor R 7 and further is grounded, the one end of a capacitor C 7 is connected to the anode of the built-in battery, and another end of the capacitor C 7 is grounded, one end of a capacitor C 8 is connected to the anode of the built-in battery, and another end of the capacitor C 8 is grounded; and the charge management module of the battery pole comprises a boosting chip U 2 , a triode Q 2 , a triode Q 3 and a diode D 3 , a fourth pin of the boosting chip U 2 is connected to an I/O pin of the microprocessor, and further connected to the base of the triode Q 3 via a resistor R 10 , the base of the triode Q 3 is also grounded via a resistor R 9 , the emitter of the triode Q 3 is grounded, the collector of the triode Q 3 is connected to the grid of the triode Q 2 and further connected to the source of the triode Q 2 and the anode of the built-in battery via a resistor R 8 , the drain of the triode Q 2 is connected to a sixth pin of the boosting chip U 2 , and further connected to one end of an inductor L 2 via a resistor R 11 , another end of the inductor L 2 is connected to a first pin of the boosting chip U 2 and the anode of the diode D 3 respectively, the cathode of the diode D 3 is connected to one end of the capacitor C 10 and the OUT+ terminal respectively, one end of a resistor R 13 is connected to the cathode of the diode D 3 and the OUT+ terminal respectively, another end of the resistor R 13 is connected to a third pin of the boosting chip U 2 and one end of a resistor R 12 , another end of the resistor R 12 is grounded, another end of the capacitor C 10 is grounded, a second pin of the boosting chip is grounded, one end of a capacitor C 11 is grounded, and another end of the capacitor C 11 is connected to the cathode of the diode D 3 and the OUT+ terminal respectively, one end of a capacitor C 12 is grounded, and another end of the capacitor C 12 is connected to the cathode of the diode D 3 and the OUT+ terminal respectively, and the OUT− terminal is grounded.

2. The electronic cigarette case according to claim 1 , wherein, the electronic cigarette case further comprises a prompting module connected to the microprocessor and configured to send out a prompting information.

3. The electronic cigarette case according to claim 1 , wherein, the microprocessor is further configured for controlling the information receiving and sending module to receive electronic cigarette data sent by an electronic cigarette to collect the electronic cigarette data.

4. The electronic cigarette case according to claim 1 , wherein, the microprocessor is further configured for controlling the information receiving and sending module to receive personal information data sent by the electronic device to collect the personal information data.

5. The electronic cigarette case according to claim 4 , wherein, the electronic cigarette case further comprises a RFID card for storing the personal information data; when the sliding touch control module senses the sliding touch signal, the microcontroller controlling the information receiving and sending module to send the personal information data stored in the RFID card to the electronic device.

6. The electronic cigarette case according to claim 1 , wherein, the information receiving and sending module includes a USB interface circuit, an I2C interface circuit, a RS232 interface circuit, a SPI interface circuit, an infrared interface circuit or a RF interface circuit.

7. The electronic cigarette case according to claim 6 , wherein, the electronic cigarette case comprises a case body; wherein an opening for receiving the information receiving and sending module is defined in the case body, and an opening for receiving the prompting module is defined in the case body; and wherein the microprocessor is received in the case body.

8. The electronic cigarette case according to claim 1 , wherein, the information receiving and sending module is a WiFi module, a Zigbee module, a Bluetooth module, a RF module or a NFC module.

9. A method for managing information of an electronic cigarette case comprising: collecting at least one kind of data selected from the group consisting of personal information data, electronic cigarette case data and electronic cigarette data by a microprocessor of the electronic cigarette case, and the microprocessor collecting the electronic cigarette case data through a charge management module of the built-in battery and a charge management module of the battery pole, the electronic cigarette case data including at least one kind of data selected from the group consisting of a number of times of charge of the electronic cigarette case, a number of times of discharge of the electronic cigarette case, a charging and discharging capacity of the electronic cigarette case, a number of times of charge of an electronic cigarette, a charging time interval of an electronic cigarette and a remaining capacity of a built-in battery of the electronic cigarette case; sensing a sliding touch signal of a user in a direction towards an opening defined in the electronic cigarette case for taking electronic cigarettes out or putting electronic cigarettes in and transmitting the sliding touch signal to the microprocessor by a sliding touch control module of the electronic cigarette case; controlling an information receiving and sending module of the electronic cigarette case to send the data collected by the microprocessor to an external electronic device according to the sliding touch signal by the microprocessor; wherein, the charge management module of the built-in battery includes a charge management chip U 1 , a first pin of the charge management chip U 1 is connected to an I/O pin of the microprocessor, a second pin of the charge management chip U 1 is connected to an I/O pin of the microprocessor, a third pin of the charge management chip U 1 is grounded via a capacitor C 3 and further connected to the anode of an external power source via a resistor R 1 , a fourth pin of the charge management chip U 1 is connected to the grid of a MOSFET Q 1 , a fifth pin of the charge management chip U 1 is grounded, a sixth pin of the charge management chip U 1 is grounded via a capacitor C 5 , a seventh pin of the charge management chip U 1 is connected to the anode of the built-in battery, a eighth pin of the charge management chip U 1 is grounded via a capacitor C 6 and further connected to one end of an inductor L 1 , a ninth pin of the charge management chip U 1 is grounded via a resistor R 5 , a tenth pin of the charge management chip U 1 is grounded via a resistor R 4 ; the VCC terminal of the external power source is connected to the anode of a diode D 1 via a resistor R 1 , the cathode of the diode D 1 is grounded via a capacitor C 1 and a capacitor C 2 respectively and further connected to the source of the MOSFET Q 1 , the drain of the MOSFET Q 1 is connected to one end of the inductor L 1 and the cathode of a diode D 2 respectively, the drain of the MOSFET Q 1 is grounded via a resistor R 2 and a capacitor C 4 connected with each other in series, another end of the inductor L 1 is also connected to the anode of the built-in battery via a resistor R 3 ; one end of a resistor R 6 is connected to the anode of the built-in battery, and another end of the resistor R 6 is connected to a first AD pin of the microprocessor, and further connected to one end of the resistor R 7 , One end of the resistor R 7 is also connected to the first AD pin of the microprocessor, and another end of the resistor R 7 is connected to the fifteenth pin of the microprocessor, one end of a capacitor C 9 is connected to the first AD pin of the microprocessor, and another end of the capacitor C 9 is connected to the second end of the resistor R 7 and further is grounded, the one end of a capacitor C 7 is connected to the anode of the built-in battery, and another end of the capacitor C 7 is grounded, one end of a capacitor C 8 is connected to the anode of the built-in battery, and another end of the capacitor C 8 is grounded; and the charge management module of the battery pole comprises a boosting chip U 2 , a triode Q 2 , a triode Q 3 and a diode D 3 , a fourth pin of the boosting chip U 2 is connected to an I/O pin of the microprocessor, and further connected to the base of the triode Q 3 via a resistor R 10 , the base of the triode Q 3 is also grounded via a resistor R 9 , the emitter of the triode Q 3 is grounded, the collector of the triode Q 3 is connected to the grid of the triode Q 2 and further connected to the source of the triode Q 2 and the anode of the built-in battery via a resistor R 8 , the drain of the triode Q 2 is connected to a sixth pin of the boosting chip U 2 , and further connected to one end of an inductor L 2 via a resistor R 11 , another end of the inductor L 2 is connected to a first pin of the boosting chip U 2 and the anode of the diode D 3 respectively, the cathode of the diode D 3 is connected to one end of the capacitor C 10 and the OUT+ terminal respectively, one end of a resistor R 13 is connected to the cathode of the diode D 3 and the OUT+ terminal respectively, another end of the resistor R 13 is connected to a third pin of the boosting chip U 2 and one end of a resistor R 12 , another end of the resistor R 12 is grounded, another end of the capacitor C 10 is grounded, a second pin of the boosting chip is grounded, one end of a capacitor C 11 is grounded, and another end of the capacitor C 11 is connected to the cathode of the diode D 3 and the OUT+ terminal respectively, one end of a capacitor C 12 is grounded, and another end of the capacitor C 12 is connected to the cathode of the diode D 3 and the OUT+ terminal respectively, and the OUT− terminal is grounded.

10. The method according to claim 9 , wherein, further comprises: counting and analyzing the received data by the electronic device, sending a analysis result to an associated device by the electronic device; or generating a prompting information based on the analysis result by the electronic device.

11. The method according to claim 10 , wherein, the process for counting and analyzing comprises: comparing the received data with a preset threshold relating to the received data, and obtaining an user behavior data according to the received data; wherein, the user behavior data includes at least one kind of data selected from the group consisting of a number of times of smoking during a preset time, a duration time of each smoking, a number of times of deep smoking, a number of times of shallow smoking, a smoking time interval, a number of times of charge and discharge of a built-in battery of the electronic cigarette case and a number of times of charge and discharge of a power supply battery of an electronic cigarette.

12. The method according to claim 10 , wherein, further comprises: sending out the prompting information by the electronic device; receiving the prompting information by the information receiving and sending module of the electronic cigarette case; displaying the prompting information and/or sending out a prompt according to the prompting information by a prompting module of the electronic cigarette case.

13. The method according to claim 9 , wherein, further comprises: collecting the electronic cigarette data by a microcontroller of an electronic cigarette; sending the electronic cigarette data to the electronic cigarette case by a data transmission module of the electronic cigarette; wherein the electronic cigarette data includes at least one kind of data selected from the group consisting of a time when each smoking signal is collected, a duration time of each collected smoking signal, an voltage value of the smoking signal and a remaining capacity of a power supply battery of the electronic cigarette.

14. The method according to claim 9 , wherein, further comprises: storing the personal information data in a RFID card; when the sliding touch control module senses the sliding touch signal, controlling the information receiving and sending module to send the personal information data stored in the RFID card to the electronic device by the microcontroller.